r&d meeting · 3/14/2006 · r&d pipeline fabry’s disease dementia hepatocellular...
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R&D Meeting
Dainippon Sumitomo Pharma Co., Ltd.
14th March 2006
R&D Decision Process
Dainippon Sumitomo Pharma Co., Ltd.
Director, Corporate PlanningTetsuya Oida
14th March 2006
PresidentPresident
Drug Research
Kenjiro Miyatake
Drug Research
Technology Research & Development
Center
Technology Research & Development
Center
組織の英語名未決定
Drug DevelopmentDrug Development
Corporate Planning
Licensing
Intellectual Property
General Affairs ( I & II )Research ManagementQuality AssuranceGLP AssuranceChemistry Research LaboratoriesPharmacology Research LaboratoriesSafety Research LaboratoriesPharmacokinetics Research Laboratories Genomic Science Laboratories
Development ManagementRegistration & Regulatory AffairsAdministrationBiostatisticsClinical Development ( Ⅰ, Ⅱ & Ⅲ )Clinical Quality ControlGCP AssurancePost Marketing Surveillance
Technology Research & Development ManagementChemical Synthesis LaboratoriesFormulation LaboratoriesAnalysis LaboratoriesInvestigational Drug Quality AssuranceMicrobiological Control Laboratories
Drug Research & Development
2
The DSP Project System
Project Scope: A compound in the preclinical or clinical stages,or a product currently marketed
Rapid promotion of projects bystrengthening collaboration channelsGreater shared knowledge baseDevelop & up-skill human resources
Designed to promote seamless activities across internal company boundariesProject System
- Efficient Use of Resources -Project Prioritization
- Total Portfolio Efficiency -Maximization of Corporate Value
3
Project
Decision Process for Projects
Drug Research
P M C(Portfolio Management Committee)
P S C(Project Steering Committee)
Executive Committee
Consolidation of Opinions
Drug Development
Technology Research &
Development Center
Manufacturing Sales & Marketing
Other Divisions
Licensing,Intellectual
Property, etc. 4
Project Portfolio Management
Portfolio EvaluationProject Economic Evaluation
- Shared Project Information Base -Portfolio Management Meetings allowing
Project Information Exchange
P M CProject Prioritization
P S CProject Implementation
5
Drug Research Overview
Dainippon Sumitomo Pharma Co., Ltd.
Executive Director, Drug ResearchYuichi Yokoyama, Ph.D.
14th March 2006
1. Drug Research Organization2. Main Research Areas3. Technology Development
• Target Identification and Validation• Improvement in Speed and Success Rate
7
Drug Research Organization
GLP Assurance
Quality Assurance
General Affairs II
Research Management
General Affairs I
Genomic Science Laboratories
Safety Research Laboratories
Chemistry Research Laboratories
Pharmacokinetics Research LaboratoriesMain Research SitesCentral Research Laboratories (Suita)Osaka Research Center (Osaka)
Drug Research
Pharmacology Research Laboratories
8
Central Research Laboratories Osaka Research Center
Chemistry Research Laboratories All functions at both sites
Pharmacokinetics Research Laboratories
Discovery Pharmacokinetics Studies
Development Pharmacokinetics Studies
Genomic Science Laboratories Protein Structure AnalysisProtein Structure Analysis
Genomics and Proteomics Studies
Pharmacology Research Laboratories Central Nervous System
Diabetes & CardiovascularInflammation & AllergyOncology & Infection
Safety Research Laboratories Non-GLP Studies GLP Studies
Research Sites and Functions
9
Dainippon Sumitomo Dainippon SumitomoDiabetes(Obesity)
Cardiovascular Hypertension/Hyperlipidemia
Central Nervous System
Depression/Anxiety/
Dementia/Pain/
Schizophrenia
Inflammation/Allergy
Rheumatoid Arthritis/Asthma/
Dermatitis
Cancer/Bacterial Infection
Oncology/ Infection
Oncology/ Infection
Cancer/Bacterial Infection
Cardiovascular DiabetesCardiovascular/
Metabolic(Diabetes)
Diabetes/Obesity/
Hyperlipidemia/Hypertension
Central Nervous System
Depression/Anxiety/
Dementia/Pain/
Schizophrenia
Central Nervous System
DepressionAnxiety
DementiaPain
Schizophrenia
Immunology/ Inflammation
Rheumatoid Arthritis/
Dermatitis
Inflammation/Immunology/
Allergy
Rheumatoid Arthritis/Asthma/Rhinitis/
Dermatitis
Infection Bacterial Infection
+
Main Drug Research Areas
10
Diabetes
Cardiovascular
Basic Research
Inflammation/Allergy Oncology/
Infection
Central Nervous System
Focusing on Diabetes and CNS
13%
18%
19%
5%
24%
21%
11
Pancreas
Intestine
BiguanideHepatic Gluconeogenesis
Inhibition●Metformin (Melbin)
(SMP-862: under development)
Adipose
GlitazoneAdipose Glucose Uptake Accelerator●Pioglitazone
Aldose ReductaseInhibitor
(Complication Therapy)Neural Sorbitol Accumulation Inhibition●Epalrestat●Fidarestat●AS-3201 (under development)
α-Glucosidase InhibitorGlucose Absorption Inhibition in Gut●Voglibose●Acarbose●Miglitol (Seibule)
Rapid-acting Insulin Secretagogue
●Nateglinide●Mitiglinide●SMP-508 (Repaglinide) (under development)
Muscle
GlitazoneMuscular Glucose Uptake Accelerator
Liver SulfonylureaInsulin Secretagogue●Glimepiride●Gliclazide (Glimicron)●Glibenclamide
Nerve
Oral AntidiabeticsMain Mechanism and Target
12
Main Indication/Mechanism of Action
Marketed Products
Development Compounds
Research Phase
Sulfonylurea Glimicron
Melbin
Seibule
Diabetes
CV
AmlodinCetaprilAlmarl
Lipoclin
Insulin Secretagogue
Rapid-acting Insulin
SecretagogueRepaglinide
Insulin Sensitizer ○
Antiobesity ○
Hypertension ○
Hyperlipidemia SMP-797 ○
Glucose Absorption Inhibitor
○
Metformin
○
Ranirestat ○Complication therapy
Focusing on DiabetesM
etab
olic
syn
drom
e-re
late
d di
seas
es
13
Main Indication Products Development Research
SchizophreniaLullan
SerenaceHalomonth
NoritrenAbilit
Functional
AnxietySediel
ErispanAC-5216
Organic
DopsAkineton
ExcegranMystan
BlonanserinLurasidone
Morphine
Depression
Parkinson's disease Zonisamide
Dementia
Epilepsy
Pain
○
AC-3933 ○
○
Strengthened research through
KASPAC collaboration
Accelerated development through collaboration with
Novartis
Accelerated development through collaboration with
Merck
Focusing on CNS
14
Exploratory Research of Alzheimer-related GenesA unique gene expression signature discriminates familial Alzheimer’s disease mutation carriers from their wild-type siblings
KASPAC Project (2000.8-)
Soluble AβAPP
βAmyloidPrecursor Protein
βAmyloid
Aggregated βAmyloid
Nerve Cell Degeneration
AβAggregation Inhibition
AβProduction Inhibition
Drug Discovery based on Amyloid Hypothesis
DementiaAβ
Degradation
PC2
PC4
PC1
Mutation carrier
Wild TypeMutation carrier (presymptomatic)
KASPAC: Karolinska Institute + Dainippon Sumitomo(Karolinska Institute Sumitomo Pharmaceuticals Alzheimer Center)• Exploration of Discovery Targets for Alzheimer’s disease
Target Identification and ValidationGenomic Science LaboratoriesCollaborations and Alliances
Improvement in Speed and Success RateDiscovery Pharmacokinetics StudiesDiscovery Toxicology Studies
Technology Development
16
Disease-model animalGeneChip Expression Analysis
GeneLogic DB(Human data)
Gene-expression Profile★★ Metabolic SyndromesMetabolic SyndromesObesityInsulin Resistance/DiabetesHyperlipidemia/Arteriosclerosis, etc
Target Candidate
TissueTissue--specific Gene Expressionspecific Gene Expression
DiseaseDisease--specific Gene Expressionspecific Gene ExpressionLiver
Muscle
AdiposeDisease: Up-regulated
Cure: Down-regulated
Hypothalamus
Pancreas
Small Intestine HTS
Hit Compound
Genomic Science Laboratories(Target Identification & Validation)
17
Target IdentificationTarget IdentificationTarget Identification
Promoting Technology Integration
HTSHTSHTSChemical LibraryChemical LibraryChemical Library
Mechanism of ActionBiomarker Identification
Toxicity Prediction
Mechanism of ActionMechanism of ActionBiomarker IdentificationBiomarker Identification
Toxicity PredictionToxicity Prediction
Structure Analysis ofProtein-Drug ComplexStructure Analysis ofStructure Analysis of
ProteinProtein--Drug ComplexDrug ComplexCADDCADDCADD
Chemical DBChemical DBChemical DB
Integration of Integration of Chemical LibrariesChemical Libraries Integration of HTS Integration of HTS
TechnologiesTechnologies
Integration of Drug Integration of Drug Design SoftwareDesign Software
Integration of Integration of GenomicsGenomics--related related
TechnologiesTechnologies
Integration of Gene Integration of Gene and Protein and Protein DBDB
Integration of Integration of Chemical InformationChemical Information
Biological DBBiological DBBiological DB
HTSHTSHTS
Integration of Structural Integration of Structural Biology TechnologiesBiology Technologies
DrugDrug CandidateCandidate 18
Protein Structure Analysis Consortium
Collaborations and Alliances
AstraZeneca(Allergy) Reverse Proteomics
Research Institute
Merck(Schizophrenia)
Zoegene(Diabetes)
Novartis(Depression, Anxiety)
Toxicogenomics Project(Prediction of Toxicity)
Proteome Factory Project(Disease-related Protein Analysis)
Kobe Knowledge Cluster Initiative
(Diabetes)Study Group on Adiposcience
(Diabetes)
TransGenic(Gene Knock-out Mice)
Protez(Infection)
Pharma SNP Consortium(Pharmacokinetic Research on
Genetic Polymorphism)
Karolinska InstituteKASPAC(CNS)
19
MedicinalChemistry
Pharmacology Screening
Chemical Library
in vitro(Cell etc)
in vivo(Disease-model animal)
Discovery Pharmacokinetics Study
Advanced in vivo, in vitro studies
Preclinical StudyGeneral Toxicity (Rat, Non-rodent)Special Toxicity (Mutagenicity, Antigenecity, Reproductive and Developmental)ADME (Rat, Non-rodent, Human in vitro)
Clinical Study (P1, P2a, P2b, P3)
Discovery Safety StudyGeneral Toxicity (Rat, Dog, 2 weeks)Mutagenicity (Ames)
HumanPK
Prediction
Simultaneous Pharmacology and Discovery Pharmacokinetics StudiesDiscovery Toxicity StudiesHuman PK Prediction
⇒ Improvement in Speed and Success Rate
Simultaneous Pharmacology and Discovery Simultaneous Pharmacology and Discovery Pharmacokinetics StudiesPharmacokinetics StudiesDiscovery Toxicity StudiesDiscovery Toxicity StudiesHuman PK PredictionHuman PK Prediction
⇒⇒ Improvement in Speed and Success RateImprovement in Speed and Success Rate
Absorption Solubility, log D, Caco-2, PAMPA
Distribution Protein Binding
Stability Liver Microsome
Inhibition Expression System, Human Liver Microsome
HTS
Induction Reporter Gene Assay
Metabolism
Discovery Pharmacokinetics & Toxicology
20
Drug Development Overview
Dainippon Sumitomo Pharma Co., Ltd.
Executive Director, Drug DevelopmentKeiichi Ono, Ph.D.
14th March 2006
1. Mission of Drug Development
2. Organizational Structure of Drug Development
3. Status of Drug Development
22
• Development of Medicinal Products that Meet Therapeutic Needs
• Creation of Medicinal Products with Competitive Superiority in the Market
• Earliest Possible Provision of New Drugs to Health Care Professionals
Mission of Drug Development Division
23
• Development Management• Registration & Regulatory Affairs• Administration• Biostatistics• Clinical Development I• Clinical Development II• Clinical Development III• Clinical Quality Control• GCP Assurance• Post Marketing Surveillance
Drug Development Division
Clinical Development in the US and EU
Organizational Structure of Drug Development
• London• New Jersey
24
R&D Pipeline
Fabry’s diseaseDementia
Hepatocellular carcinoma
Schizophrenia
Schizophrenia
(Parkinson’s disease)
Rheumatoid arthritis
(Non-Hodgkin’s lymphoma)
(Post-gastrectomy syndrome)
(Intravenous injection)Diabetic neuropathy
Over-active bladder syndrome
US/Canada
Europe, US Europe
Rheumatoid arthritisEurope
Pre-registration Phase III Phase II Phase I
Systemic fungal infection
Development in Japan (New Chemical Entity) Development in Japan for new indication (new indication etc.) Overseas development
(ミリプラチン)
SMP-508(レパグリニド)
AS-3201(ラニレスタット)
EPHEDRINENAGAI
AC-3933
AD-5423(blonanserin)
AC-3933
SMP-114
プロレナール
(Cervical spondylosis)
Diabetes
Diabetes
Anxiety & Depression
USDementia
HypercholesterolemiaEurope
CALSED
zonisamide
AD-5423(blonanserin)
SM-26000
SMP-536
SMP-114
SM-13496(ルラシドン)
GASMOTIN
SM-13496(lurasidone)
AC-5216
PRORENAL
AS-3201(ranirestat)
SMP-114 SMP-797
SMP-986
SMP-797
AC-3933
SM-11355(miriplatin)
SMP-862(metformin)
AC-5216
SMP-508(repaglinide)
(Compensated cirrhosis and Chronic hepatitis C)
(Febrile neutropenia)
MEROPEN
(Under preparation for Phase III)
SUMIFERON
Diabetic neuropathyAS-3201
(ranirestat)
Hypercholesterolemia
Overseas Clinical DevelopmentClinical Studies
(Dainippon Sumitomo Pharma) (Out-Licensed)Diabetic neuropathy Anxiety/DepressionUS/Canada: Phase III [Novartis]
CancerRheumatoid arthritis [Sunesis]Europe: Late Phase II
Life-threatening infectionSchizophrenia [Protez]Europe, US: Phase II
Schizophrenia [Merck]Dementia
US: Early Phase II
CancerHypercholesterolemia [Conforma]Europe: Early Phase II
Over-active bladder syndromeEurope: Phase I
AS-3201(ラニレスタット)
AC-5423
AC-933
SMP-114
SMP-797
SMP-986
SM-13496(ルラシドン)
AC-5216
SMP-601
カルセド
Diabetic Neuropathy[Eisai]
AS-3201(ranirestat)
CALSED
SM-13496(lurasidone)
SMP-601
AG-7352
AC-5216
AD-5423(blonanserin)
AC-3933
SMP-797
SMP-986
SMP-114
AS-3201(ranirestat)
Clinical Studies
26
Pre-registration
Product code Generic name Target disease Formulation
SMP-536 Agalsidase alfa Fabry’s disease Injection
SM-26000 Amphotericin B liposome
Systemic fungal infection Injection
AD-5423 Blonanserin Schizophrenia TabletPowder
AD-810N Zonisamide Parkinson’s disease(New indication)
Tablet
CALSED Amrubicinhydrochloride
Non-Hodgkin’s lymphoma(New indication)
Injection
Ephedrine Ephedrine hydrochloride
Hypotension under anesthesia(New administration route)
Injection
Summary of SMP-536 (agalsidase alfa)
Target disease: Fabry’s disease (Orphan drug)
Mode of action: α-galactosidase A (recombinant)enzyme replacement therapy
Formulation: Injection (Infusion)
In-house/Licensed: Licensed from Shire
Stage: Pre-registration
28
Profile of SMP-536 (agalsidase alfa)
SMP-536 Fabrazyme
Dose 0.2 mg/kg 1.0 mg/kg
Dosing duration Longer than 40 minutes Longer than 2-4 hours*
Dosing frequency Once every 2 weeks Once every 2 weeks
Dosing route Intravenous infusion Intravenous infusion
Number of countries where approved
34 countries 35 countries
Therapeutic effects Decrease in CTH (GL-3) Improvement of Pain/QOL
Decrease in CTH (GL-3)
*: An infusion rate of 0.25-0.5 mg/minute was used to calculate the duration for infusion to a patient with body weight of 60 kg.
29
Summary of SM-26000 (amphotericin B liposome)
Target disease: Systemic fungal infection
Mode of action: Amphotericin B liposome
Formulation: Freeze-dried powder forintravenous injection
In-house/Licensed: Licensed from Gilead Sciences
Stage: Pre-registration
30
Profile of SM-26000
Amphotericin B
OH OH
H OH H OH H OH H OH
OO
H CH3OH
H
H3CH H
CH3
O
OHHH
HO2C
H
O
HHH
HO
H
CH3
HONH2
H
OHH
Profile of amphotericin BWide anti-fungal spectrumFungicidal effectSafety issuesRenal damage: Limited dose levels
Profile of SM-26000Liposome formulation of amphotericin BAnti-fungal activity not less than amphotericin B suspension (Fungizone)Reduction in adverse effects
31
Fungal wall
Fungal cell membrane
Cytoplasm
Amphotericin B
Electrolyte loss
Mode of action: SM-26000
32
Summary of AD-5423 (blonanserin)
Target disease: Schizophrenia
Mode of action: Selectively blocking Dopamine-D2, Serotonin 5-HT2 receptors; Low affinity for Histamine H1, Muscarine M1, adrenaline α1 receptors
Tablet, Powder
In-house/Licensed:
Pre-registration
Formulation:
Stage:
In-house
33
Change in PANSS Total Score
-40
-30
-20
-10
0
Final assessment
Cha
nge
in P
AN
SSTo
tal S
core
Incidence of adverse events, adverse reaction, extra-pyramidal adverse event
AD-5423 N=156
Risperidone N=144 0
20
40
60
80
100
Adverse event Adverse reaction Extra-pyramidal event
Inci
denc
e(%
)
AD-5423 N=156
Risperidone N=145
AD-5423 N=156
Risperidone N=144
Mean + SD
34
Expected profile of AD-5423 (blonanserin)
Wide-spectrum effect: Effective not only on positive symptoms but also on negative symptoms of schizophrenia
Less incidence of extra-pyramidal adverse events than the typical neuroleptic agent (haloperidol)
Less risk of clinically significant weight-gain caused by an atypical neuroleptic
35
Summary of AD-810N (zonisamide)
Target disease: Parkinson’s disease
Mode of action: Increase in dopamine level in the CNS (caused by MAO-B inhibitory effect or something else)
Formulation: Tablet
In-house/Licensed: In-house
Stage: Pre-registration
36
Expected profile of AD-810N (zonisamide)
-
In addition to a MAO-B inhibitory effect, a new mechanism of action unknown to conventional anti-Parkinson’s disease agents (the molecular level mechanism has yet to be clarified): Expected to solve tachyphylaxis of L-DOPA and wearing-off of symptoms
Expected to be effective on patients with insufficient treatment on medication of L-DOPA and other anti-Parkinson’s disease agents: Addition of a clinically significant choice to treat Parkinson’s disease
37
Therapeutic Areas for Strategic Development
★ Strategic Therapeutic Areas☆ Area I: CNS disease☆ Area II: Diabetes
38
Pipeline in strategic therapeutic areas (CNS, Diabetes)
Phase I Phase II Phase III Pre-registration
AC-3933 SM-13496AC-5216
AD-5423zonisamide(Anti-Parkinson’s Disease)
SMP-508SMP-862AS-3201
39
Various approaches to CNS diseasesCNS diseases Under
developmentCurrently marketed
Schizophrenia AD-5423SM-13496
LullanSerenace
Halomonth
Parkinson’s disease Zonisamide DopsAkineton
Dementia AC-3933
Depression NoritrenAbilit
Anxiety AC-5216 SedielErispan
Epilepsy ExcegranMystan
Insomnia Erimin40
Summary of SM-13496 (lurasidone)
Target Disease: Schizophrenia
Mode of action: High affinity to receptors of Dopamine D2, Serotonin 5-HT2, 5-HT7, 5-HT1A, etc.
Formulation: Tablet
In-house/Licensed: In-house
Stage: Late Phase II (in Japan)Preparation for Phase III (by Merck outside Japan) 41
O
O
H
H
NNN SN
H
HHH
・HCl
N (CH2)4 N NN
NO
O
H
H
CH2COOHCHOCH2COOH
COOH・
N (CH2)4 N N
O
O
H
H
SN
・HCl 2H2O
Lurasidone, D2/5-HT7, 5-HT1A, 5-HT2
Sediel®, 5-HT1A agonist (Anti-anxiety)
Lullan®, D2/5-HT2 antagonist
Lullan
Sediel
(lurasidone)SM-13496
42
PANSS total score
Mean change from baseline at end point (LOCF analysis)*:p<0.05 vs corresponding placebo group
-20
-15
-10
-5
0
Mea
n C
hang
e fro
m B
asel
ine
Lurasidone
Placebo Placebo 40mg 80mg 120mg(n=45) (n=90) (n=47) (n=90) (n=44)
Study 196 Study 006
**
Impr
ovem
ent
43
-4
-3
-2
-1
0
Mea
n C
hang
e fro
m B
asel
ine
Lurasidone
Placebo Placebo 40mg 80mg 120mg
PANSS - Negative Subscale
Mean change from baseline at end point (LOCF analysis)*:p<0.05 vs corresponding placebo group
(n=45) (n=90) (n=47) (n=90) (n=44)
Study 196 Study 006
*
*
Impr
ovem
ent
44
-3
-2
-1
0
Mea
n C
hang
e fro
m B
asel
ine
Lurasidone
Placebo Placebo 40mg 80mg 120mg
PANSS - Cognitive Subscale
Mean change from baseline at end point (LOCF analysis)*:p<0.05 vs corresponding placebo group
(n=45) (n=90) (n=47) (n=89) (n=44)
Study 196 Study 006
*
Impr
ovem
ent
45
EPS Scales
Mean change from baseline at end points (LOCF analysis) in two pooled studies.*:p<0.05 vs placebo groupBAS score >2 is considered clinically significant.
-1
0
1
2
3Placebo Lurasidone
Mea
n C
hang
e fro
m B
asel
ine
SAS BAS AIMS
*
n=138 n=186 n=139 n=187 n=138 n=187
SAS: Simpson-Angus Rating ScaleBAS: Barnes Akathisia ScaleAIMS: Abnormal Involuntary Movement Scale
46
Summary of AC-5216
Target disease:
Mode of action:
Formulation:
In-house/Licensed:
Stage:
Anxiety/depression
Ligand for mitochondria-type benzodiazepine receptor
Tablet
In-house
Early Phase II in Japan
Early Phase II outside Japan (by Novartis) 47
Anti-anxiety mechanism of AC-5216- Mitochondria-type benzodiazepine ligand (MBR) -
GABA neuron
Post-synaptic neuron
Cl−
Glia cells
Cholesterol
Inner membrane
P450scc
Mitochondria
Outer membrane
Pregnenolone
Alo-pregnenolone
MBR
Cl−
Anti-anxiety effect
GABA
AC-5216 GABAAReceptor
BZ binding site
Activity enhancing
48
Expected profile of AC-5216
Novel pharmacological profile for an anti-anxiety and anti-depression agent
Binding to mitochondria-type benzodiazepine receptor, resulting in generation of neuro-steroids to effect anti-anxiety
Fewer adverse drug effects, such as the muscle relaxation and memory impairment found with the use of benzodiazepines
49
Summary of AC-3933
Target disease:
Mode of action:
Formulation:
In-house/Licensed:
Stage:
Dementia
Benzodiazepine receptor partial inverse-agonist
Tablet
In-house
Phase I in Japan
Early Phase II overseas
50
Expected profile of AC-3933
Benzodiazepine receptor partial inverse agonist
New mechanism different from existing anti-dementia drugs: AC-3933 suppresses the GABA neurons that inhibitory regulate the cholinergic neurons, resulting in the activation of cholinergic neurons
Activation of glutamate neurons as well
Superior therapeutic effects than existing anti-dementia drugs on memory impairment—a core symptom in dementia—due to the dual activation of cholinergic neurons and glutamate neurons
51
Various approaches to diabetes treatment
Nerves
Pancreas
Liver
Intestine
Adipose tissue
Inhibition of gluconeogenesisin the liver
Increase in intake of glucose into muscle and adipose tissue
Inhibition of glucose absorption from the intestine
Insulin secretion enhancer
Muscle
Glucose absorption inhibitors
Biganides
Sulfonylurea
Rapidly effective insulin secretion enhancer
Insulin resistance treatment
●SMP-862●MELBIN
(Metformin)
●SEIBULE(miglitol)
●SMP-508(repaglinide)
●GLIMICRON
Diabetic neuropathy treatment
●AS-3201(ranirestat)
Summary of AS-3201 (ranirestat)
Target disease: Diabetic neuropathy
Mode of action: Prophylaxis and treatment of diabetic neuropathy by inhibiting aldose reductase
Formulation: Tablet
In-house/Licensed: In-house (Licensed to Eisai for overseas development)
Stage: Early Phase II in Japan; co-development with KyorinPhase III in North America
53
Mean change in Nerve Conduction Velocity (NCV) for the 12 week biopsy and 48 week extension studies of ranirestat
-2
-1
0
1
2
3
4
PeronealMotor
MedianMotor
Right Sural Proximal Median Sensory
DistalMedianSensory
m/s
placebo (12 wks) 5 mg (12 wks) 5 mg (12+48 wks)20 mg (12 wks) 20 mg (12+48 wks)
* *
*
†
† **
† p<0.100, *: p<0.05, * * : p<0.01 vs Baseline
54
Mean change in Toronto Clinical Neuropathy Score (TCNS) for the 12 week biopsy and 48 week extension studies of ranirestat
*
5 mg (12+48 wks)20 mg (12+48 wks)
***
***
-1.4
-1.2-1
-0.8-0.6
-0.4-0.2
0
0.2
0.4Symptom Sensory Reflex Total
Placebo (12 wks) 5 mg (12wks)20 mg (12wks)
**
* *
*:p <0.05, ** :p<0.01, *** :p<0.001 vs Baseline
55
Expected profile of AS-3201 (ranirestat)
AS-3201 inhibits the aldose reductase that metabolizes glucose to sorbitol, thereby controlling the sorbitolaccumulation in nerve cells that causes abnormal cellular function. AS-3201’s ability to inhibit sorbitolaccumulation is expected to have both a prophylactic and improving effect on diabetic neuropathy.
AS-3201 has high affinity for aldose reductase, resulting in potent inhibition of sorbitol accumulation
AS-3201 shows good distribution to nerve tissues, the target organs for treatment in diabetic neuropathy, with sustained efficacy
56
Summary of SMP-508 (repaglinide)
Target disease: Type II diabetes
Mode of action: Rapid absorption and rapid metabolism: Rapid effects on insulin secretion
Formulation: Tablet
In-house/Licensed: Licensed (from Novo Nordisk)
Stage: Late Phase II
57
Suppression of postprandial high blood glucose by rapidly effective insulin secretion enhancer
10
20
30
40
50
(μU
/mL)
Insulin level
110
(mg/
dL)
126
200Blood glucose level
Postprandial high blood glucose
Diabetes
Normal
Breakfast Lunch Supper
Postprandial high blood glucose due to lowered postprandial insulin secretion in diabetes
Rapidly enhances postprandial insulin secretion at early stage, resulting in normalized insulin level and suppression of postprandial high blood glucose
Diabetes
Normal
Early StageSecretion
58
Comparison of Repaglinide with Nateglinidein the clinical studies conducted overseas
7.07.27.47.67.88.08.28.48.68.89.0
0 2 4 6 8 10 12 14 16
RepaglinideNateglinide
Treatment Week
HbA
1c(%
)
120130140150160170180190200210220
0 2 4 6 8 10 12 14 16
RepaglinideNateglinide
Treatment WeekFP
G (m
g/dL
)
HbA1CBlood glucose in
fasting state
Single Dose (mg)
Δ Postprandial blood glucose
AUC(mg/dL・min)
0.5-4 -6261.5
-5888.360-120
ΔHbA1c(%)
Δblood glucose in fasting state
(mg/dL)
-57.1
-18.4Nateglinide -1.04
Repaglinide -1.57
Diabetes Care, Vol. 27, No.6, 1265-1270: Repaglinide versus Nateglinide monotherapy, Julio Rosenstock et al 59
Summary of SMP-862 (metformin)
Target disease: Type II diabetes
Mode of action: Inhibition of gluconeogenesis in the liverEnhancement of insulin sensitivity in the muscle and liver, resulting in improvement of insulin resistance
Formulation: Tablet
In-house/Licensed: Licensed from Merck Sante
Stage: Late phase II60
Expected profile of SMP-862 (metformin)Revision of the current restrictions for diabetes type II patients with additional new indications and dosage regimens
—The current indication/dosage regimen—Indicated patients:patients failing to receive sufficient efficacy with
SU-type anti-diabetes drugs or unable to increase dose level due to experiencing adverse drug reactions
Dosage regimen: Upper limit of 750 mg/day
Expected to become a first line therapy for type II diabetes as a blood glucose lowering agent without enhancing insulin secretion
Expected to become an add-on therapy in combination with other anti-diabetes drugs
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Glucophage(Metformin) Dose-response StudyConducted in the U.S.
Garber A.J. et al., Am J Med (1997)
Glucophage (metformin) or placebo was administered for 14 weeks to type-II diabetic patients who started diet therapy with insufficient effects or to those who had taken sulfonylureas with 3-week wash-out period before starting the study.
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Pipeline in other therapeutic areas(cardiovascular, metabolic disease,
inflammation/allergy, infection)
Phase I Phase II Phase III Pre-registration
SMP-797
SMP-986
SMP-536
SM-26000
CALSED(New indication)
SM-11355
SMP-114
GASMOTIN(New indication)
Prorenal(New indication)
SUMIFERON(New indication)
MEROPEN(New indication)(Under preparation for Phase III)
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Summary of SM-11355 (miriplatin)
Target disease:
Mode of action:
Formulation:
In-house/License:
Stage:
Hepatocellular carcinoma
DNA bridging
Freeze-dried powder for injection (injection to artery in the liver)
In-house
Phase II
64
Expected profile of SM-11355 (miriplatin)
Easy suspension in Lipiodol and sustained release from Lipiodol are expected to be useful for TAE(trans-arterial embolization)
Locally sustained release is expected to provide an efficient anti-tumor effect while avoiding systemic adverse reactions.
Repeated administration of the drug possible for hepatic cancer, which is known to be recurrent, through avoidance of blood vessel lesions at the site of administration.
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Summary of SMP-114
Target disease: Rheumatoid arthritis
Mode of action: Oral DMARD with a new pharmacological mechanism, improving rheumatism symptoms, as well as suppressing worsening of joint damage malformation of the joint
Formulation: Tablet
In-house/Licensed: In-house
Stage: Early Phase II in JapanLate Phase II outside Japan
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T-lymphocyte
Synovial cell
macrophage
fibroblast
osteoclast
Chronic inflammation(edema, pain) Joint destruction anchylosis
SMP-114
SMP-114
Pharmacological mechanism of SMP-114
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Summary of SMP-797
Target disease: cholesteremia
Mode of action: A lowering of plasma cholesterol by ACAT inhibition and enhancing LDL receptor activity leads to the direct inhibition of the progress of arteriosclerosis by ACAT inhibition
Formulation: Tablet
In-house/Licensed: In-house
Stage: Phase I in JapanEarly Phase II outside Japan
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LIVERLIVER
Inhibition of cholesterol absorption
FCCESMPSMP--797797
INTESTINEINTESTINE
Inhibition oflipid secretion
FC CESMPSMP--797797
CE
VLDL
LDLmodification
LDLreceptor
ModifiedLDL
CE
Inhibition of lipid accumulationin arterial wall→ Anti-atherosclerotic effects
FC CESMPSMP--797797
HDL
MACROPHAGEMACROPHAGE
CE
FC
Scavengerreceptor
Lipid droplets
Bile acidsBile
Cholesterol in food or bile
Increase of bile acidsexcretion
Increase of LDLreceptor
Excretion
Effects of SMPEffects of SMP--797797
SMP-797
SMP-797
Summary of SMP-986
Target disease:
Mode of action:
Formulation:
In-house/Licensed:
Stage:
Frequent urination, nocturnal frequent urination, incontinence, urgency of urination caused by over-active bladder syndrome
Anti-muscarine action and suppression of abnormal nerve transmission to the CNS
Tablet
In-house
Phase I outside Japan
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The statements made in this presentation material are forward-looking statements based on management’s assumptions and beliefs in light of information available up to the day of announcement, and involve both known and unknown risks and uncertainties. Actual financial results may differ materially from those presented in this document, being dependent on a number of factors. Information concerning pharmaceuticals (including compounds under development) contained within this material is not intended as advertising or medical advice.
Disclaimer Regarding Forward-lookingStatements
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